cryptography and network security
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Cryptography and Network Security. Third Edition by William Stallings Lecture slides by Lawrie Brown. Chapter 14 – Authentication Applications. We cannot enter into alliance with neighboring princes until we are acquainted with their designs. — The Art of War , Sun Tzu. - PowerPoint PPT PresentationTRANSCRIPT
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Cryptography and Network Security
Third Edition
by William Stallings
Lecture slides by Lawrie Brown
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Chapter 14 – Authentication Applications
We cannot enter into alliance with neighboring princes until we are acquainted with their designs.
—The Art of War, Sun Tzu
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Authentication Applications
• will consider authentication functions
• developed to support application-level authentication & digital signatures
• will consider Kerberos – a private-key authentication service
• then X.509 directory authentication service
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Kerberos
• trusted key server system from MIT
• provides centralised private-key third-party authentication in a distributed network– allows users access to services distributed
through network– without needing to trust all workstations– rather all trust a central authentication server
• two versions in use: 4 & 5
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Kerberos Requirements
• first published report identified its requirements as:– security– reliability– transparency– scalability
• implemented using an authentication protocol based on Needham-Schroeder
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Kerberos 4 Overview
• a basic third-party authentication scheme
• have an Authentication Server (AS) – users initially negotiate with AS to identify self – AS provides a non-corruptible authentication
credential (ticket granting ticket TGT)
• have a Ticket Granting server (TGS)– users subsequently request access to other
services from TGS on basis of users TGT
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Kerberos 4 Overview
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Kerberos Realms
• a Kerberos environment consists of:– a Kerberos server– a number of clients, all registered with server– application servers, sharing keys with server
• this is termed a realm– typically a single administrative domain
• if have multiple realms, their Kerberos servers must share keys and trust
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Kerberos Version 5
• developed in mid 1990’s
• provides improvements over v4– addresses environmental shortcomings
• encryption alg, network protocol, byte order, ticket lifetime, authentication forwarding, interrealm auth
– and technical deficiencies• double encryption, non-std mode of use, session
keys, password attacks
• specified as Internet standard RFC 1510
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X.509 Authentication Service
• part of CCITT X.500 directory service standards– distributed servers maintaining some info database
• defines framework for authentication services – directory may store public-key certificates– with public key of user– signed by certification authority
• also defines authentication protocols • uses public-key crypto & digital signatures
– algorithms not standardised, but RSA recommended
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X.509 Certificates
• issued by a Certification Authority (CA), containing: – version (1, 2, or 3) – serial number (unique within CA) identifying certificate – signature algorithm identifier – issuer X.500 name (CA) – period of validity (from - to dates) – subject X.500 name (name of owner) – subject public-key info (algorithm, parameters, key) – issuer unique identifier (v2+) – subject unique identifier (v2+) – extension fields (v3) – signature (of hash of all fields in certificate)
• notation CA<<A>> denotes certificate for A signed by CA
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X.509 Certificates
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Obtaining a Certificate
• any user with access to CA can get any certificate from it
• only the CA can modify a certificate
• because cannot be forged, certificates can be placed in a public directory
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CA Hierarchy
• if both users share a common CA then they are assumed to know its public key
• otherwise CA's must form a hierarchy • use certificates linking members of hierarchy to
validate other CA's – each CA has certificates for clients (forward) and
parent (backward)
• each client trusts parents certificates • enable verification of any certificate from one CA
by users of all other CAs in hierarchy
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CA Hierarchy Use
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Certificate Revocation
• certificates have a period of validity
• may need to revoke before expiry, eg:1. user's private key is compromised
2. user is no longer certified by this CA
3. CA's certificate is compromised
• CA’s maintain list of revoked certificates– the Certificate Revocation List (CRL)
• users should check certs with CA’s CRL
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Authentication Procedures
• X.509 includes three alternative authentication procedures:
• One-Way Authentication
• Two-Way Authentication
• Three-Way Authentication
• all use public-key signatures
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One-Way Authentication
• 1 message ( A->B) used to establish – the identity of A and that message is from A – message was intended for B – integrity & originality of message
• message must include timestamp, nonce, B's identity and is signed by A
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Two-Way Authentication
• 2 messages (A->B, B->A) which also establishes in addition:– the identity of B and that reply is from B – that reply is intended for A – integrity & originality of reply
• reply includes original nonce from A, also timestamp and nonce from B
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Three-Way Authentication
• 3 messages (A->B, B->A, A->B) which enables above authentication without synchronized clocks
• has reply from A back to B containing signed copy of nonce from B
• means that timestamps need not be checked or relied upon
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X.509 Version 3
• has been recognised that additional information is needed in a certificate – email/URL, policy details, usage constraints
• rather than explicitly naming new fields defined a general extension method
• extensions consist of:– extension identifier– criticality indicator– extension value
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Certificate Extensions
• key and policy information– convey info about subject & issuer keys, plus
indicators of certificate policy
• certificate subject and issuer attributes– support alternative names, in alternative
formats for certificate subject and/or issuer
• certificate path constraints– allow constraints on use of certificates by
other CA’s
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Summary
• have considered:– Kerberos trusted key server system– X.509 authentication and certificates